一种异养-光合两段式培养工艺，用于提高废水营养物质去除率并促进藻类油脂积累。

A hetero-photoautotrophic two-stage cultivation process to improve wastewater nutrient removal and enhance algal lipid accumulation.

机构信息

Center for Biorefining, Bioproducts and Biosystems Engineering Department, University of Minnesota, 1390 Eckles Ave., Saint Paul, MN 55108, United States.

出版信息

Bioresour Technol. 2012 Apr;110:448-55. doi: 10.1016/j.biortech.2012.01.063. Epub 2012 Jan 28.

DOI:10.1016/j.biortech.2012.01.063

PMID:22326332

Abstract

A hetero-photoautotrophic algal growth model was studied for improved wastewater treatment and low cost algal biofuel feedstock production. The microalga, Auxenochlorella protothecoides UMN280, was grown heterotrophically on concentrated municipal wastewater and then autotrophically with CO(2) supplementation (air, 1% and 5%, respectively). Strain UMN280 was harvested by self-sedimentation after the heterotrophic stage and the supernatant was aerated with different levels of CO(2) to facilitate autotrophic growth in the second stage. The maximal biomass concentration and lipid content at the first and second stages reached 1.12g/L and 28.90%, and 1.16g/L and 33.22%, respectively. The nutrient removal efficiencies for total phosphorus, ammonia, nitrogen and chemical oxygen demand at the end of the two-stage cultivation were 98.48%, 100%, 90.60% and 79.10%, respectively. The above process can be used to treat organic-rich wastewaters (e.g. industrial and animal manure wastewaters) to achieve the dual purpose of low-cost wastewater treatment and biofuel feedstock production.

摘要

研究了一种异养-光自养藻类生长模型，以提高废水处理效率并降低藻类生物燃料原料的生产成本。实验选用的微藻为异养生长的蛋白核小球藻（Auxenochlorella protothecoides UMN280），以浓缩的城市污水为碳源，在异养生长阶段结束后，通过自沉降收获藻细胞，然后用空气（1%和 5%）分别作为碳源进行光自养培养。在第二阶段，用不同浓度的 CO(2)（空气、1%和 5%）对上清液进行曝气，以促进自养生长。在第一和第二阶段，藻细胞的最大生物量浓度和脂质含量分别达到 1.12g/L 和 28.90%，1.16g/L 和 33.22%。两段式培养结束时，总磷、氨氮、氮和化学需氧量的去除率分别达到 98.48%、100%、90.60%和 79.10%。该工艺可用于处理富含有机物的废水（如工业和动物粪便废水），以实现低成本废水处理和生物燃料原料生产的双重目的。

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一种异养-光合两段式培养工艺，用于提高废水营养物质去除率并促进藻类油脂积累。

A hetero-photoautotrophic two-stage cultivation process to improve wastewater nutrient removal and enhance algal lipid accumulation.

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